// Created: 2002/11/27
// RCS-ID: $Id$
// Copyright: (c) David Elliott
+// Software 2000 Ltd.
// Licence: wxWidgets licence
/////////////////////////////////////////////////////////////////////////////
#include "wx/app.h"
#ifndef WX_PRECOMP
- #include "wx/dc.h"
#include "wx/intl.h"
#include "wx/log.h"
#include "wx/module.h"
#endif
-#include "wx/cocoa/ObjcPose.h"
+#include "wx/cocoa/ObjcRef.h"
#include "wx/cocoa/autorelease.h"
#include "wx/cocoa/mbarman.h"
#include "wx/cocoa/NSApplication.h"
-#if wxUSE_WX_RESOURCES
-# include "wx/resource.h"
-#endif
+#include "wx/cocoa/dc.h"
#import <AppKit/NSApplication.h>
#import <Foundation/NSRunLoop.h>
#import <Foundation/NSNotification.h>
#import <AppKit/NSCell.h>
-// ========================================================================
-// wxPoseAsInitializer
-// ========================================================================
-wxPoseAsInitializer *wxPoseAsInitializer::sm_first = NULL;
-
-static bool sg_needIdle = true;
-
-// ========================================================================
-// wxPoserNSApplication
-// ========================================================================
-@interface wxPoserNSApplication : NSApplication
-{
-}
-
-- (NSEvent *)nextEventMatchingMask:(unsigned int)mask untilDate:(NSDate *)expiration inMode:(NSString *)mode dequeue:(BOOL)flag;
-- (void)sendEvent: (NSEvent*)anEvent;
-@end // wxPoserNSApplication
-
-WX_IMPLEMENT_POSER(wxPoserNSApplication);
-
-@implementation wxPoserNSApplication : NSApplication
-
-/* NOTE: The old method of idle event handling added the handler using the
- [NSRunLoop -performSelector:target:argument:order:modes] which caused
- the invocation to occur at the begining of [NSApplication
- -nextEventMatchingMask:untilDate:expiration:inMode:dequeue:]. However,
- the code would be scheduled for invocation with every iteration of
- the event loop. This new method simply overrides the method. The
- same caveats apply. In particular, by the time the event loop has
- called this method, it usually expects to receive an event. If you
- plan on stopping the event loop, it is wise to send an event through
- the queue to ensure this method will return.
- See wxEventLoop::Exit() for more information.
-
- This overridden method calls the superclass method with an untilDate
- parameter that indicates nil should be returned if there are no pending
- events. That is, nextEventMatchingMask: should not wait for an event.
- If nil is returned then idle event processing occurs until the user
- does not request anymore idle events or until a real event comes through.
-
- RN: Even though Apple documentation states that nil can be passed in place
- of [NSDate distantPast] in the untilDate parameter, this causes Jaguar (10.2)
- to get stuck in some kind of loop deep within nextEventMatchingMask:, thus we
- need to explicitly pass [NSDate distantPast] instead.
-*/
-
-- (NSEvent *)nextEventMatchingMask:(unsigned int)mask untilDate:(NSDate *)expiration inMode:(NSString *)mode dequeue:(BOOL)flag
-{
- // Get the same events except don't block
- NSEvent *event = [super nextEventMatchingMask:mask untilDate:[NSDate distantPast] inMode:mode dequeue:flag];
- // If we got one, simply return it
- if(event)
- return event;
- // No events, try doing some idle stuff
- if(sg_needIdle
-#ifdef __WXDEBUG__
- && !wxTheApp->IsInAssert()
-#endif
- && ([NSDefaultRunLoopMode isEqualToString:mode] || [NSModalPanelRunLoopMode isEqualToString:mode]))
- {
- sg_needIdle = false;
- wxLogTrace(wxTRACE_COCOA,wxT("Processing idle events"));
- while(wxTheApp->ProcessIdle())
- {
- // Get the same events except don't block
- NSEvent *event = [super nextEventMatchingMask:mask untilDate:[NSDate distantPast] inMode:mode dequeue:flag];
- // If we got one, simply return it
- if(event)
- return event;
- // we didn't get one, do some idle work
- wxLogTrace(wxTRACE_COCOA,wxT("Looping idle events"));
- }
- // No more idle work requested, block
- wxLogTrace(wxTRACE_COCOA,wxT("Finished idle processing"));
- }
- else
- wxLogTrace(wxTRACE_COCOA,wxT("Avoiding idle processing sg_needIdle=%d"),sg_needIdle);
- return [super nextEventMatchingMask:mask untilDate:expiration inMode:mode dequeue:flag];
-}
-
-- (void)sendEvent: (NSEvent*)anEvent
-{
- wxLogTrace(wxTRACE_COCOA,wxT("SendEvent"));
- sg_needIdle = true;
- [super sendEvent: anEvent];
-}
+bool wxApp::sm_isEmbedded = false; // Normally we're not a plugin
-@end // wxPoserNSApplication
+// wxNSApplicationObserver singleton.
+static wxObjcAutoRefFromAlloc<wxNSApplicationObserver*> sg_cocoaAppObserver = [[WX_GET_OBJC_CLASS(wxNSApplicationObserver) alloc] init];
// ========================================================================
// wxNSApplicationDelegate
return NO;
}
+@end // implementation wxNSApplicationDelegate : NSObject
+WX_IMPLEMENT_GET_OBJC_CLASS(wxNSApplicationDelegate,NSObject)
+
+// ========================================================================
+// wxNSApplicationObserver
+// ========================================================================
+@implementation wxNSApplicationObserver : NSObject
+
- (void)applicationWillBecomeActive:(NSNotification *)notification
{
wxTheApp->CocoaDelegate_applicationWillBecomeActive();
wxTheApp->CocoaDelegate_applicationDidResignActive();
}
+- (void)applicationWillUpdate:(NSNotification *)notification;
+{
+ wxTheApp->CocoaDelegate_applicationWillUpdate();
+}
+
- (void)controlTintChanged:(NSNotification *)notification
{
wxLogDebug(wxT("TODO: send EVT_SYS_COLOUR_CHANGED as appropriate"));
}
-@end // implementation wxNSApplicationDelegate : NSObject
+@end // implementation wxNSApplicationObserver : NSObject
+WX_IMPLEMENT_GET_OBJC_CLASS(wxNSApplicationObserver,NSObject)
// ========================================================================
// wxApp
// wxApp Static member initialization
// ----------------------------------------------------------------------------
IMPLEMENT_DYNAMIC_CLASS(wxApp, wxEvtHandler)
-BEGIN_EVENT_TABLE(wxApp, wxEvtHandler)
- EVT_IDLE(wxAppBase::OnIdle)
-// EVT_END_SESSION(wxApp::OnEndSession)
-// EVT_QUERY_END_SESSION(wxApp::OnQueryEndSession)
-END_EVENT_TABLE()
// ----------------------------------------------------------------------------
// wxApp initialization/cleanup
}
}
- // Posing must be completed before any instances of the Objective-C
- // classes being posed as are created.
- wxPoseAsInitializer::InitializePosers();
+ /*
+ Cocoa supports -Key value options which set the user defaults key "Key"
+ to the value "value" Some of them are very handy for debugging like
+ -NSShowAllViews YES. Cocoa picks these up from the real argv so
+ our removal of them from the wx copy of it does not affect Cocoa's
+ ability to see them.
+
+ We basically just assume that any "-NS" option and its following
+ argument needs to be removed from argv. We hope that user code does
+ not expect to see -NS options and indeed it's probably a safe bet
+ since most user code accepting options is probably using the
+ double-dash GNU-style syntax.
+ */
+ for(int i=1; i < argc; ++i)
+ {
+ static const wxChar *ARG_NS = wxT("-NS");
+ static const int ARG_NS_LEN = wxStrlen(ARG_NS);
+ if( wxStrncmp(argv[i], ARG_NS, ARG_NS_LEN) == 0 )
+ {
+ // Only eat this option if it has an argument
+ if( (i + 1) < argc )
+ {
+ argc -= 2;
+ memmove(argv + i, argv + i + 2, argc * sizeof(wxChar*));
+ // drop back one position so the next run through the loop
+ // reprocesses the argument at our current index.
+ --i;
+ }
+ }
+ }
return wxAppBase::Initialize(argc, argv);
}
{
wxAutoNSAutoreleasePool pool;
- wxDC::CocoaShutdownTextSystem();
+ wxCocoaDCImpl::CocoaShutdownTextSystem();
wxMenuBarManager::DestroyInstance();
- [m_cocoaApp setDelegate:nil];
- [[NSNotificationCenter defaultCenter] removeObserver:m_cocoaAppDelegate
- name:NSControlTintDidChangeNotification object:nil];
- [m_cocoaAppDelegate release];
- m_cocoaAppDelegate = NULL;
+ [[NSNotificationCenter defaultCenter] removeObserver:sg_cocoaAppObserver];
+ if(!sm_isEmbedded)
+ {
+ [m_cocoaApp setDelegate:nil];
+ [m_cocoaAppDelegate release];
+ m_cocoaAppDelegate = NULL;
+ }
wxAppBase::CleanUp();
}
#endif // __WXDEBUG__
argc = 0;
+#if !wxUSE_UNICODE
argv = NULL;
+#endif
m_cocoaApp = NULL;
m_cocoaAppDelegate = NULL;
}
// Create the app using the sharedApplication method
m_cocoaApp = [NSApplication sharedApplication];
- m_cocoaAppDelegate = [[wxNSApplicationDelegate alloc] init];
- [m_cocoaApp setDelegate:m_cocoaAppDelegate];
- [[NSNotificationCenter defaultCenter] addObserver:m_cocoaAppDelegate
+
+ if(!sm_isEmbedded)
+ {
+ // Enable response to application delegate messages
+ m_cocoaAppDelegate = [[WX_GET_OBJC_CLASS(wxNSApplicationDelegate) alloc] init];
+ [m_cocoaApp setDelegate:m_cocoaAppDelegate];
+ }
+
+ // Enable response to "delegate" messages on the notification observer
+ [[NSNotificationCenter defaultCenter] addObserver:sg_cocoaAppObserver
+ selector:@selector(applicationWillBecomeActive:)
+ name:NSApplicationWillBecomeActiveNotification object:nil];
+
+ [[NSNotificationCenter defaultCenter] addObserver:sg_cocoaAppObserver
+ selector:@selector(applicationDidBecomeActive:)
+ name:NSApplicationDidBecomeActiveNotification object:nil];
+
+ [[NSNotificationCenter defaultCenter] addObserver:sg_cocoaAppObserver
+ selector:@selector(applicationWillResignActive:)
+ name:NSApplicationWillResignActiveNotification object:nil];
+
+ [[NSNotificationCenter defaultCenter] addObserver:sg_cocoaAppObserver
+ selector:@selector(applicationDidResignActive:)
+ name:NSApplicationDidResignActiveNotification object:nil];
+
+ [[NSNotificationCenter defaultCenter] addObserver:sg_cocoaAppObserver
+ selector:@selector(applicationWillUpdate:)
+ name:NSApplicationWillUpdateNotification object:nil];
+
+ // Enable response to system notifications
+ [[NSNotificationCenter defaultCenter] addObserver:sg_cocoaAppObserver
selector:@selector(controlTintChanged:)
name:NSControlTintDidChangeNotification object:nil];
- wxMenuBarManager::CreateInstance();
+ if(!sm_isEmbedded)
+ wxMenuBarManager::CreateInstance();
- wxDC::CocoaInitializeTextSystem();
+ wxCocoaDCImpl::CocoaInitializeTextSystem();
return true;
}
+wxApp::~wxApp()
+{
+ if(m_cfRunLoopIdleObserver != NULL)
+ {
+ // Invalidate the observer which also removes it from the run loop.
+ CFRunLoopObserverInvalidate(m_cfRunLoopIdleObserver);
+ // Release the ref as we don't need it anymore.
+ m_cfRunLoopIdleObserver.reset();
+ }
+}
+
bool wxApp::CallOnInit()
{
// wxAutoNSAutoreleasePool pool;
while(1)
{
wxAutoNSAutoreleasePool pool;
+ /* NOTE: It may be better to use something like
+ NSEventTrackingRunLoopMode since we don't necessarily want all
+ timers/sources/observers to run, only those which would
+ run while tracking events. However, it should be noted that
+ NSEventTrackingRunLoopMode is in the common set of modes
+ so it may not effectively make much of a difference.
+ */
NSEvent *event = [GetNSApplication()
nextEventMatchingMask:NSAnyEventMask
untilDate:[NSDate distantPast]
[GetNSApplication() sendEvent: event];
}
+ /*
+ Because we just told NSApplication to avoid blocking it will in turn
+ run the CFRunLoop with a timeout of 0 seconds. In that case, our
+ run loop observer on kCFRunLoopBeforeWaiting never fires because
+ no waiting occurs. Therefore, no idle events are sent.
+
+ Believe it or not, this is actually desirable because we do not want
+ to process idle from here. However, we do want to process pending
+ events because some user code expects to do work in a thread while
+ the main thread waits and then notify the main thread by posting
+ an event.
+ */
+ ProcessPendingEvents();
+
#if wxUSE_LOG
// let the logs be flashed again
wxLog::Resume();
void wxApp::WakeUpIdle()
{
+ /* When called from the main thread the NSAutoreleasePool managed by
+ the [NSApplication run] method would ordinarily be in place and so
+ one would think a pool here would be unnecessary.
+
+ However, when called from a different thread there is usually no
+ NSAutoreleasePool in place because wxThread has no knowledge of
+ wxCocoa. The pool here is generally only ever going to contain
+ the NSEvent we create with the factory method. As soon as we add
+ it to the main event queue with postEvent:atStart: it is retained
+ and so safe for our pool to release.
+ */
+ wxAutoNSAutoreleasePool pool;
+ /* NOTE: This is a little heavy handed. What this does is cause an
+ AppKit NSEvent to be added to NSApplication's queue (which is always
+ on the main thread). This will cause the main thread runloop to
+ exit which returns control to nextEventMatchingMask which returns
+ the event which is then sent with sendEvent: and essentially dropped
+ since it's not for a window (windowNumber 0) and NSApplication
+ certainly doesn't understand it.
+
+ With the exception of wxEventLoop::Exit which uses us to cause the
+ runloop to exit and return to the NSApplication event loop, most
+ callers only need wx idle to happen, or more specifically only really
+ need to ensure that ProcessPendingEvents is called which is currently
+ done without exiting the runloop.
+
+ Be careful if you decide to change the implementation of this method
+ as wxEventLoop::Exit depends on the current behavior.
+ */
[m_cocoaApp postEvent:[NSEvent otherEventWithType:NSApplicationDefined
location:NSZeroPoint modifierFlags:NSAnyEventMask
timestamp:0 windowNumber:0 context:nil
subtype:0 data1:0 data2:0] atStart:NO];
}
+extern "C" static void ObserveMainRunLoopBeforeWaiting(CFRunLoopObserverRef observer, CFRunLoopActivity activity, void *info);
+extern "C" static void ObserveMainRunLoopBeforeWaiting(CFRunLoopObserverRef observer, CFRunLoopActivity activity, void *info)
+{
+ static_cast<wxApp*>(info)->CF_ObserveMainRunLoopBeforeWaiting(observer, activity);
+}
+
+#if 0
+static int sg_cApplicationWillUpdate = 0;
+#endif
+
+/*!
+ Invoked from the applicationWillUpdate notification observer. See the
+ NSApplication documentation for the official statement on when this
+ will be called. Since it can be hard to understand for a Cocoa newbie
+ I'll try to explain it here as it relates to wxCocoa.
+
+ Basically, we get called from within nextEventMatchingMask if and only
+ if any user code told the application to send the update notification
+ (sort of like a request for idle events). However, unlike wx idle events,
+ this notification is sent quite often, nearly every time through the loop
+ because nearly every control tells the application to send it.
+
+ Because wx idle events are only supposed to be sent when the event loop
+ is about to block we instead schedule a function to be called just
+ before the run loop waits and send the idle events from there.
+
+ It also has the desirable effect of only sending the wx idle events when
+ the event loop is actualy going to block. If the event loop is being
+ pumped manualy (e.g. like a PeekMessage) then the kCFRunLoopBeforeWaiting
+ observer never fires. Our Yield() method depends on this because sending
+ idle events from within Yield would be bad.
+
+ Normally you might think that we could just set the observer up once and
+ leave it attached. However, this is problematic because our run loop
+ observer calls user code (the idle handlers) which can actually display
+ modal dialogs. Displaying a modal dialog causes reentry of the event
+ loop, usually in a different run loop mode than the main loop (e.g. in
+ modal-dialog mode instead of default mode). Because we only register the
+ observer with the run loop mode at the time of this call, it won't be
+ called from a modal loop.
+
+ We want it to be called and thus we need a new observer.
+ */
+void wxApp::CocoaDelegate_applicationWillUpdate()
+{
+ wxLogTrace(wxTRACE_COCOA,wxT("applicationWillUpdate"));
+
+// CFRunLoopRef cfRunLoop = [[NSRunLoop currentRunLoop] getCFRunLoop];
+ CFRunLoopRef cfRunLoop = CFRunLoopGetCurrent();
+ wxCFRef<CFStringRef> cfRunLoopMode(CFRunLoopCopyCurrentMode(cfRunLoop));
+
+ /* If we have an observer and that observer is for the wrong run loop
+ mode then invalidate it and release it.
+ */
+ if(m_cfRunLoopIdleObserver != NULL && m_cfObservedRunLoopMode != cfRunLoopMode)
+ {
+ CFRunLoopObserverInvalidate(m_cfRunLoopIdleObserver);
+ m_cfRunLoopIdleObserver.reset();
+ }
+#if 0
+ ++sg_cApplicationWillUpdate;
+#endif
+ /* This will be true either on the first call or when the above code has
+ invalidated and released the exisiting observer.
+ */
+ if(m_cfRunLoopIdleObserver == NULL)
+ {
+ // Enable idle event handling
+ CFRunLoopObserverContext observerContext =
+ { 0
+ , this
+ , NULL
+ , NULL
+ , NULL
+ };
+ /* NOTE: I can't recall why we don't just let the observer repeat
+ instead of invalidating itself each time it fires thus requiring
+ it to be recreated for each shot but there was if I remember
+ some good (but very obscure) reason for it.
+
+ On the other hand, I could be wrong so don't take that as gospel.
+ */
+ m_cfRunLoopIdleObserver.reset(CFRunLoopObserverCreate(kCFAllocatorDefault, kCFRunLoopBeforeWaiting, /*repeats*/FALSE, /*priority*/0, ObserveMainRunLoopBeforeWaiting, &observerContext));
+ m_cfObservedRunLoopMode = cfRunLoopMode;
+ CFRunLoopAddObserver(cfRunLoop, m_cfRunLoopIdleObserver, m_cfObservedRunLoopMode);
+ }
+}
+
+static inline bool FakeNeedMoreIdle()
+{
+#if 0
+// Return true on every 10th call.
+ static int idleCount = 0;
+ return ++idleCount % 10;
+#else
+ return false;
+#endif
+}
+
+/*!
+ Called by CFRunLoop just before waiting. This is the appropriate time to
+ send idle events. Unlike other ports, we don't peek the queue for events
+ and stop idling if there is one. Instead, if the user requests more idle
+ events we tell Cocoa to send us an applicationWillUpdate notification
+ which will cause our observer of that notification to tell CFRunLoop to
+ call us before waiting which will cause us to be fired again but only
+ after exhausting the event queue.
+
+ The reason we do it this way is that peeking for an event causes CFRunLoop
+ to reenter and fire off its timers, observers, and sources which we're
+ better off avoiding. Doing it this way, we basically let CFRunLoop do the
+ work of peeking for the next event which is much nicer.
+ */
+void wxApp::CF_ObserveMainRunLoopBeforeWaiting(CFRunLoopObserverRef observer, int activity)
+{
+ // Ensure that CocoaDelegate_applicationWillUpdate will recreate us.
+ // We've already been invalidated by CFRunLoop because we are one-shot.
+ m_cfRunLoopIdleObserver.reset();
+#if 0
+ wxLogTrace(wxTRACE_COCOA,wxT("Idle BEGIN (%d)"), sg_cApplicationWillUpdate);
+ sg_cApplicationWillUpdate = 0;
+#else
+ wxLogTrace(wxTRACE_COCOA,wxT("Idle BEGIN"));
+#endif
+ if( ProcessIdle() || FakeNeedMoreIdle() )
+ {
+ wxLogTrace(wxTRACE_COCOA, wxT("Idle REQUEST MORE"));
+ [NSApp setWindowsNeedUpdate:YES];
+ }
+ else
+ {
+ wxLogTrace(wxTRACE_COCOA, wxT("Idle END"));
+ }
+}
+
#ifdef __WXDEBUG__
void wxApp::OnAssert(const wxChar *file, int line, const wxChar* cond, const wxChar *msg)
{
m_isInAssert = false;
}
#endif // __WXDEBUG__
+
+/* A note about Cocoa's event loops vs. run loops:
+
+ It's important to understand that Cocoa has a two-level event loop. The
+ outer level is run by NSApplication and can only ever happen on the main
+ thread. The nextEventMatchingMask:untilDate:inMode:dequeue: method returns
+ the next event which is then given to sendEvent: to send it. These
+ methods are defined in NSApplication and are thus part of AppKit.
+
+ Events (NSEvent) are only sent due to actual user actions like clicking
+ the mouse or moving the mouse or pressing a key and so on. There are no
+ paint events; there are no timer events; there are no socket events; there
+ are no idle events.
+
+ All of those types of "events" have nothing to do with the GUI at all.
+ That is why Cocoa's AppKit doesn't implement them. Instead, they are
+ implemented in Foundation's NSRunLoop which on OS X uses CFRunLoop
+ to do the actual work.
+
+ How NSApplication uses NSRunLoop is rather interesting. Basically, it
+ interacts with NSRunLoop only from within the nextEventMatchingMask
+ method. It passes its inMode: argument almost directly to NSRunLoop
+ and thus CFRunLoop. The run loop then runs (e.g. loops) until it
+ is told to exit. The run loop calls the callout functions directly.
+ From within those callout functions the run loop is considered to
+ be running. Presumably, the AppKit installs a run loop source to
+ receive messages from the window server over the mach port (like a
+ socket). For some messages (e.g. need to paint) the AppKit will
+ call application code like drawRect: without exiting the run loop.
+ For other messages (ones that can be encapsulated in an NSEvent)
+ the AppKit tells the run loop to exit which returns control to
+ the nextEventMatchingMask method which then returns the NSEvent
+ object. It's important to note that once the runloop has exited
+ it is no longer considered running and thus if you ask it which
+ mode it is running in it will return nil.
+
+ When manually pumping the event loop care should be taken to
+ tell it to run in the correct mode. For instance, if you are
+ using it to run a modal dialog then you want to run it in
+ the modal panel run loop mode. AppKit presumably has sources
+ or timers or observers that specifically don't listen on this
+ mode. Another interesting mode is the connection reply mode.
+ This allows Cocoa to wait for a response from a distributed
+ objects message without firing off user code that may result
+ in a DO call being made thus recursing. So basically, the
+ mode is a way for Cocoa to attempt to avoid run loop recursion
+ but to allow it under certain circumstances.
+ */
+